Molecular Dynamics Simulation and Visualization Parallelism of Structronics

Abstract

Computer simulations of Structronics systems require a model reflect thermomechanical reality. A model consists of both a representation of the Structronics system and a set of thermomechanical rules that describe the continuum behavior. However, molecular dynamics is a computer simulation technique able to express the specification and ultimate details of the initial thermomechanical state of Structronics system, and a specification of the external electromagnetic influences at the molecular level. A visualization tool uses to visualize the Structronics molecule motions, interaction and trajectories then to observe the continuum behavior and predict structure performances. Both molecular dynamics model and the visualization tool would be implemented in the framework of parallel computing in order to possess accurate and efficient simulation. Nevertheless, the parallel computing is a group of independent processors working to solve a large computational problem which required a huge effort to utilize larger storage resources and to reduce the execution time. In this paper we propose an approach for developing an integrated molecular dynamic simulation and visualization solution to provide online visualization.